- An international research team has proposed a new testing method for photovoltaic water pumping systems (PVWPS) used for domestic water applications and irrigation in developing regions.
โNo prior studies have proposed such a method for evaluating the evolution of boreholes throughout the lifespan of PVWPS,โ the research’s lead author, Simon Meunier, told pv magazine. โIt notably leverages the systemโs photovoltaic panels as a power source to conduct regular borehole pumping testing, rather than relying on diesel generators, and can be applied across diverse contexts, benefiting communities, governments, NGOs, and other stakeholders dedicated to sustainable water and energy solutions.โ
In the paper โPhotovoltaic pumping tests: A novel supervision method for photovoltaic water pumping systems,โ published in Heliyon, Meunier and his colleagues explained that the novel testing approach offers innovative and practical benefits such as continuous and cost-effective monitoring, reduction of emissions and logistical complexities, as well as enhanced system longevity and groundwater sustainability.
โConventional borehole testing in PVWPS typically requires diesel generators and substantial manpower, making it costly and often feasible only before the installation of the PVWPS,โ Meunier said. In contrast, our method enables ongoing borehole monitoring without additional fuel costs or interruptions to the water supply.
They also stressed that many countries in Africa currently require pumping tests before the installation of a pumping system on the borehole or at the borehole recommissioning, noting that these tests are usually conducted in a few days. Furthermore, some countries also require tests after deployment to protect the borehole over time.
โMost of the focus is on water contamination, with regulations on minimum distances between the borehole head and other facilities, on the borehole cap, on the gradient of the slope around the borehole head to prevent surface water from entering the borehole, and on the presence of waste near the borehole,โ the study notes.
The proposed methodology monitors borehole water levels at various flow rates without disrupting the operation of the PVWPS, according to its creators. The testing setup utilizes a โnon-intrusiveโ clip-on flow sensor that can be de-installed after the test is completed. It measures the hydrostatic pressure induced by the height of water above it.
โThe installation of the equipment is carried out approximately 1 h before sunrise to be ready to start the measurements when the water in the borehole is still at its static depth,โ the scientists said, noting that the test could be easily conducted by one technician alone. โThe data collection starts 30 min before sunrise. The measurement is stopped around 2โ3 h after sunset, in order to collect data throughout the whole day, and to observe the recovery of the water level without pumping.โ
These tests, according to Meunier, allow early detection of issues such as borehole clogging. โRegular supervision through photovoltaic pumping tests supports sustainable groundwater management, preventing over-extraction and extending the operational life of both the borehole and PVWPS,โ he added.
The proposed methodology was tested in a 600 W PVWPS installed in 2018 in
, Burkina Faso, where there is no centralized water supply network. The system supplies around 7 m3 of water per day for around 280 inhabitants. โThe borehole is 56 m deep, has an interior diameter of 0.11 m and the motor-pump is at a depth of 30 m,โ the scientists specified. โThe height between the ground level and the level at which the water enters the tank is 7.6 m.โThey found that the proposed testing method accurately determines borehole parameters, achieving a model fit with an average coefficient of determination (R2) of 0.99. They also estimated the cost of a photovoltaic pumping test at $43, which compares to $511 for the multiple-step drawdown test and $2,050 for long-term tests.
โFurthermore, over a 10-year period (the estimated motor-pump lifespan), the cumulative cost of conducting photovoltaic pumping tests every two years is less than 10 % of the expense of replacing the motor-pump prematurely,โ they added. โOver a 50-year period (the estimated borehole lifespan), the total cost of biannual photovoltaic pumping tests amounts to only 13 % of the cost of drilling a new borehole.โ
โBy using solar power instead of diesel, this method reduces emissions and logistical complexities, aligning with sustainability goals,โ Munier concluded.
The research team comprised academics from France’s Universitรฉ Paris-Saclay, the Sorbonne Universitรฉ in France and Institut Photovoltaique dโIle de France, as well as from Stanford University in the United States and the Imperial College London in the United Kingdom.
Author: Emiliano Bellini
This article was originally published in pv magazine and is republished with permission.